/*
 * ***** BEGIN GPL LICENSE BLOCK *****
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software  Foundation,
 * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 *
 * The Original Code is Copyright (C) 2005 by the Blender Foundation.
 * All rights reserved.
 *
 * Contributor(s): Daniel Dunbar
 *                 Ton Roosendaal,
 *                 Ben Batt,
 *                 Brecht Van Lommel,
 *                 Campbell Barton
 *
 * ***** END GPL LICENSE BLOCK *****
 *
 */

/** \file blender/modifiers/intern/MOD_mirror.c
 *  \ingroup modifiers
 */


#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"

#include "BLI_math.h"

#include "BKE_library.h"
#include "BKE_library_query.h"
#include "BKE_mesh.h"
#include "BKE_modifier.h"
#include "BKE_deform.h"

#include "bmesh.h"
#include "bmesh_tools.h"

#include "MEM_guardedalloc.h"

#include "DEG_depsgraph_build.h"
#include "DEG_depsgraph_query.h"

#include "MOD_modifiertypes.h"

static void initData(ModifierData *md)
{
	MirrorModifierData *mmd = (MirrorModifierData *) md;

	mmd->flag |= (MOD_MIR_AXIS_X | MOD_MIR_VGROUP);
	mmd->tolerance = 0.001;
	mmd->mirror_ob = NULL;
}

static void foreachObjectLink(
        ModifierData *md, Object *ob,
        ObjectWalkFunc walk, void *userData)
{
	MirrorModifierData *mmd = (MirrorModifierData *) md;

	walk(userData, ob, &mmd->mirror_ob, IDWALK_CB_NOP);
}

static void updateDepsgraph(ModifierData *md, const ModifierUpdateDepsgraphContext *ctx)
{
	MirrorModifierData *mmd = (MirrorModifierData *)md;
	if (mmd->mirror_ob != NULL) {
		DEG_add_object_relation(ctx->node, mmd->mirror_ob, DEG_OB_COMP_TRANSFORM, "Mirror Modifier");
	}
	DEG_add_object_relation(ctx->node, ctx->object, DEG_OB_COMP_TRANSFORM, "Mirror Modifier");
}

static Mesh *doBiscetOnMirrorPlane(
        MirrorModifierData *mmd,
        Object *ob,
        const Mesh *mesh,
        Object *mirror_ob,
        int axis,
        float mirrormat[4][4])
{
	bool do_bisect_flip_axis = (
	        (axis == 0 && mmd->flag & MOD_MIR_BISECT_FLIP_AXIS_X) ||
	        (axis == 1 && mmd->flag & MOD_MIR_BISECT_FLIP_AXIS_Y) ||
	        (axis == 2 && mmd->flag & MOD_MIR_BISECT_FLIP_AXIS_Z));

	const float bisect_distance = 0.001;

	Mesh *result;
	BMesh *bm;
	BMIter viter;
	BMVert *v, *v_next;

	bm = BKE_mesh_to_bmesh_ex(
		mesh,
		&(struct BMeshCreateParams){0},
		&(struct BMeshFromMeshParams){
			.calc_face_normal = true,
			.cd_mask_extra = CD_MASK_ORIGINDEX,
		});

	/* prepare data for bisecting */
	float plane[4];
	float plane_co[3] = {0, 0, 0};
	float plane_no[3];
	copy_v3_v3(plane_no, mirrormat[axis]);

	if (mirror_ob != NULL) {
		float tmp[4][4];
		invert_m4_m4(tmp, ob->obmat);
		mul_m4_m4m4(tmp, tmp, mirror_ob->obmat);

		copy_v3_v3(plane_no, tmp[axis]);
		copy_v3_v3(plane_co, tmp[3]);
	}

	plane_from_point_normal_v3(plane, plane_co, plane_no);

	BM_mesh_bisect_plane(bm, plane, false, false, 0, 0, bisect_distance);

	/* Plane definitions for vert killing. */
	float plane_offset[4];
	copy_v3_v3(plane_offset, plane);
	plane_offset[3] = plane[3] - bisect_distance;

	if (do_bisect_flip_axis) {
		negate_v3(plane_offset);
	}

	/* Delete verts across the mirror plane. */
	BM_ITER_MESH_MUTABLE(v, v_next, &viter, bm, BM_VERTS_OF_MESH) {
		if (plane_point_side_v3(plane_offset, v->co) > 0.0f) {
			BM_vert_kill(bm, v);
		}
	}

	result = BKE_mesh_from_bmesh_for_eval_nomain(bm, 0);
	BM_mesh_free(bm);

	return result;
}

static Mesh *doMirrorOnAxis(
	MirrorModifierData *mmd,
	const ModifierEvalContext *ctx,
	Object *ob,
	const Mesh *mesh,
	int axis)
{
	const float tolerance_sq = mmd->tolerance * mmd->tolerance;
	const bool do_vtargetmap = (mmd->flag & MOD_MIR_NO_MERGE) == 0;
	int tot_vtargetmap = 0;  /* total merge vertices */

	const bool do_bisect = (
	        (axis == 0 && mmd->flag & MOD_MIR_BISECT_AXIS_X) ||
	        (axis == 1 && mmd->flag & MOD_MIR_BISECT_AXIS_Y) ||
	        (axis == 2 && mmd->flag & MOD_MIR_BISECT_AXIS_Z));

	Mesh *result;
	MVert *mv, *mv_prev;
	MEdge *me;
	MLoop *ml;
	MPoly *mp;
	float mtx[4][4];
	int i;
	int a, totshape;
	int *vtargetmap = NULL, *vtmap_a = NULL, *vtmap_b = NULL;

	/* mtx is the mirror transformation */
	unit_m4(mtx);
	mtx[axis][axis] = -1.0f;

	Object *mirror_ob = DEG_get_evaluated_object(ctx->depsgraph, mmd->mirror_ob);
	if (mirror_ob != NULL) {
		float tmp[4][4];
		float itmp[4][4];

		/* tmp is a transform from coords relative to the object's own origin,
		 * to coords relative to the mirror object origin */
		invert_m4_m4(tmp, mirror_ob->obmat);
		mul_m4_m4m4(tmp, tmp, ob->obmat);

		/* itmp is the reverse transform back to origin-relative coordinates */
		invert_m4_m4(itmp, tmp);

		/* combine matrices to get a single matrix that translates coordinates into
		 * mirror-object-relative space, does the mirror, and translates back to
		 * origin-relative space */
		mul_m4_m4m4(mtx, mtx, tmp);
		mul_m4_m4m4(mtx, itmp, mtx);
	}


	Mesh *mesh_bisect = NULL;
	if (do_bisect) {
		mesh_bisect = doBiscetOnMirrorPlane(mmd, ob, mesh, mirror_ob, axis, mtx);
		mesh = mesh_bisect;
	}

	const int maxVerts = mesh->totvert;
	const int maxEdges = mesh->totedge;
	const int maxLoops = mesh->totloop;
	const int maxPolys = mesh->totpoly;

	result = BKE_mesh_new_nomain_from_template(
	        mesh, maxVerts * 2, maxEdges * 2, 0, maxLoops * 2, maxPolys * 2);

	/*copy customdata to original geometry*/
	CustomData_copy_data(&mesh->vdata, &result->vdata, 0, 0, maxVerts);
	CustomData_copy_data(&mesh->edata, &result->edata, 0, 0, maxEdges);
	CustomData_copy_data(&mesh->ldata, &result->ldata, 0, 0, maxLoops);
	CustomData_copy_data(&mesh->pdata, &result->pdata, 0, 0, maxPolys);

	/* Subsurf for eg won't have mesh data in the custom data arrays.
	 * now add mvert/medge/mpoly layers. */
	if (!CustomData_has_layer(&mesh->vdata, CD_MVERT)) {
		memcpy(result->mvert, mesh->mvert, sizeof(*result->mvert) * mesh->totvert);
	}
	if (!CustomData_has_layer(&mesh->edata, CD_MEDGE)) {
		memcpy(result->medge, mesh->medge, sizeof(*result->medge) * mesh->totedge);
	}
	if (!CustomData_has_layer(&mesh->pdata, CD_MPOLY)) {
		memcpy(result->mloop, mesh->mloop, sizeof(*result->mloop) * mesh->totloop);
		memcpy(result->mpoly, mesh->mpoly, sizeof(*result->mpoly) * mesh->totpoly);
	}

	/* copy customdata to new geometry,
	 * copy from its self because this data may have been created in the checks above */
	CustomData_copy_data(&result->vdata, &result->vdata, 0, maxVerts, maxVerts);
	CustomData_copy_data(&result->edata, &result->edata, 0, maxEdges, maxEdges);
	/* loops are copied later */
	CustomData_copy_data(&result->pdata, &result->pdata, 0, maxPolys, maxPolys);

	if (do_vtargetmap) {
		/* second half is filled with -1 */
		vtargetmap = MEM_malloc_arrayN(maxVerts, 2 * sizeof(int), "MOD_mirror tarmap");

		vtmap_a = vtargetmap;
		vtmap_b = vtargetmap + maxVerts;
	}

	/* mirror vertex coordinates */
	mv_prev = result->mvert;
	mv = mv_prev + maxVerts;
	for (i = 0; i < maxVerts; i++, mv++, mv_prev++) {
		mul_m4_v3(mtx, mv->co);

		if (do_vtargetmap) {
			/* compare location of the original and mirrored vertex, to see if they
			 * should be mapped for merging */
			if (UNLIKELY(len_squared_v3v3(mv_prev->co, mv->co) < tolerance_sq)) {
				*vtmap_a = maxVerts + i;
				tot_vtargetmap++;

				/* average location */
				mid_v3_v3v3(mv->co, mv_prev->co, mv->co);
				copy_v3_v3(mv_prev->co, mv->co);
			}
			else {
				*vtmap_a = -1;
			}

			*vtmap_b = -1; /* fill here to avoid 2x loops */

			vtmap_a++;
			vtmap_b++;
		}
	}

	/* handle shape keys */
	totshape = CustomData_number_of_layers(&result->vdata, CD_SHAPEKEY);
	for (a = 0; a < totshape; a++) {
		float (*cos)[3] = CustomData_get_layer_n(&result->vdata, CD_SHAPEKEY, a);
		for (i = maxVerts; i < result->totvert; i++) {
			mul_m4_v3(mtx, cos[i]);
		}
	}

	/* adjust mirrored edge vertex indices */
	me = result->medge + maxEdges;
	for (i = 0; i < maxEdges; i++, me++) {
		me->v1 += maxVerts;
		me->v2 += maxVerts;
	}

	/* adjust mirrored poly loopstart indices, and reverse loop order (normals) */
	mp = result->mpoly + maxPolys;
	ml = result->mloop;
	for (i = 0; i < maxPolys; i++, mp++) {
		MLoop *ml2;
		int j, e;

		/* reverse the loop, but we keep the first vertex in the face the same,
		 * to ensure that quads are split the same way as on the other side */
		CustomData_copy_data(&result->ldata, &result->ldata, mp->loopstart, mp->loopstart + maxLoops, 1);

		for (j = 1; j < mp->totloop; j++)
			CustomData_copy_data(&result->ldata, &result->ldata,
			                     mp->loopstart + j,
			                     mp->loopstart + maxLoops + mp->totloop - j,
			                     1);

		ml2 = ml + mp->loopstart + maxLoops;
		e = ml2[0].e;
		for (j = 0; j < mp->totloop - 1; j++) {
			ml2[j].e = ml2[j + 1].e;
		}
		ml2[mp->totloop - 1].e = e;

		mp->loopstart += maxLoops;
	}

	/* adjust mirrored loop vertex and edge indices */
	ml = result->mloop + maxLoops;
	for (i = 0; i < maxLoops; i++, ml++) {
		ml->v += maxVerts;
		ml->e += maxEdges;
	}

	/* handle uvs,
	 * let tessface recalc handle updating the MTFace data */
	if (mmd->flag & (MOD_MIR_MIRROR_U | MOD_MIR_MIRROR_V) || (is_zero_v2(mmd->uv_offset_copy) == false)) {
		const bool do_mirr_u = (mmd->flag & MOD_MIR_MIRROR_U) != 0;
		const bool do_mirr_v = (mmd->flag & MOD_MIR_MIRROR_V) != 0;

		const int totuv = CustomData_number_of_layers(&result->ldata, CD_MLOOPUV);

		for (a = 0; a < totuv; a++) {
			MLoopUV *dmloopuv = CustomData_get_layer_n(&result->ldata, CD_MLOOPUV, a);
			int j = maxLoops;
			dmloopuv += j; /* second set of loops only */
			for (; j-- > 0; dmloopuv++) {
				if (do_mirr_u) dmloopuv->uv[0] = 1.0f - dmloopuv->uv[0] + mmd->uv_offset[0];
				if (do_mirr_v) dmloopuv->uv[1] = 1.0f - dmloopuv->uv[1] + mmd->uv_offset[1];
				dmloopuv->uv[0] += mmd->uv_offset_copy[0];
				dmloopuv->uv[1] += mmd->uv_offset_copy[1];
			}
		}
	}

	/* handle vgroup stuff */
	if ((mmd->flag & MOD_MIR_VGROUP) && CustomData_has_layer(&result->vdata, CD_MDEFORMVERT)) {
		MDeformVert *dvert = (MDeformVert *) CustomData_get_layer(&result->vdata, CD_MDEFORMVERT) + maxVerts;
		int *flip_map = NULL, flip_map_len = 0;

		flip_map = defgroup_flip_map(ob, &flip_map_len, false);

		if (flip_map) {
			for (i = 0; i < maxVerts; dvert++, i++) {
				/* merged vertices get both groups, others get flipped */
				if (do_vtargetmap && (vtargetmap[i] != -1))
					defvert_flip_merged(dvert, flip_map, flip_map_len);
				else
					defvert_flip(dvert, flip_map, flip_map_len);
			}

			MEM_freeN(flip_map);
		}
	}

	if (do_vtargetmap) {
		/* slow - so only call if one or more merge verts are found,
		 * users may leave this on and not realize there is nothing to merge - campbell */
		if (tot_vtargetmap) {
			result = BKE_mesh_merge_verts(result, vtargetmap, tot_vtargetmap, MESH_MERGE_VERTS_DUMP_IF_MAPPED);
		}
		MEM_freeN(vtargetmap);
	}

	if (mesh_bisect != NULL) {
		BKE_id_free(NULL, mesh_bisect);
	}

	return result;
}

static Mesh *mirrorModifier__doMirror(
        MirrorModifierData *mmd, const ModifierEvalContext *ctx,
        Object *ob, Mesh *mesh)
{
	Mesh *result = mesh;

	/* check which axes have been toggled and mirror accordingly */
	if (mmd->flag & MOD_MIR_AXIS_X) {
		result = doMirrorOnAxis(mmd, ctx, ob, result, 0);
	}
	if (mmd->flag & MOD_MIR_AXIS_Y) {
		Mesh *tmp = result;
		result = doMirrorOnAxis(mmd, ctx, ob, result, 1);
		if (tmp != mesh) {
			/* free intermediate results */
			BKE_id_free(NULL, tmp);
		}
	}
	if (mmd->flag & MOD_MIR_AXIS_Z) {
		Mesh *tmp = result;
		result = doMirrorOnAxis(mmd, ctx, ob, result, 2);
		if (tmp != mesh) {
			/* free intermediate results */
			BKE_id_free(NULL, tmp);
		}
	}

	return result;
}

static Mesh *applyModifier(
        ModifierData *md, const ModifierEvalContext *ctx,
        Mesh *mesh)
{
	Mesh *result;
	MirrorModifierData *mmd = (MirrorModifierData *) md;

	result = mirrorModifier__doMirror(mmd, ctx, ctx->object, mesh);

	if (result != mesh) {
		result->runtime.cd_dirty_vert |= CD_MASK_NORMAL;
	}
	return result;
}


ModifierTypeInfo modifierType_Mirror = {
	/* name */              "Mirror",
	/* structName */        "MirrorModifierData",
	/* structSize */        sizeof(MirrorModifierData),
	/* type */              eModifierTypeType_Constructive,
	/* flags */             eModifierTypeFlag_AcceptsMesh |
	                        eModifierTypeFlag_SupportsMapping |
	                        eModifierTypeFlag_SupportsEditmode |
	                        eModifierTypeFlag_EnableInEditmode |
	                        eModifierTypeFlag_AcceptsCVs |
	                        /* this is only the case when 'MOD_MIR_VGROUP' is used */
	                        eModifierTypeFlag_UsesPreview,

	/* copyData */          modifier_copyData_generic,

	/* deformVerts_DM */    NULL,
	/* deformMatrices_DM */ NULL,
	/* deformVertsEM_DM */  NULL,
	/* deformMatricesEM_DM*/NULL,
	/* applyModifier_DM */  NULL,

	/* deformVerts */       NULL,
	/* deformMatrices */    NULL,
	/* deformVertsEM */     NULL,
	/* deformMatricesEM */  NULL,
	/* applyModifier */     applyModifier,

	/* initData */          initData,
	/* requiredDataMask */  NULL,
	/* freeData */          NULL,
	/* isDisabled */        NULL,
	/* updateDepsgraph */   updateDepsgraph,
	/* dependsOnTime */     NULL,
	/* dependsOnNormals */	NULL,
	/* foreachObjectLink */ foreachObjectLink,
	/* foreachIDLink */     NULL,
	/* foreachTexLink */    NULL,
};
